Mechanism for charging containers



Sept. 23, 1952 R. sPuRR 216115525 MECHNISM FOR GHARGING CONTAINERS Filed July s, 194e s sheets-sheet 1 n. sPuRRv MECHANISM Fon CHAR'GING CONTAINERS Sept. 23, 1952 8v Sheets-Sheet 2 Filed July 8, 1946 Sept. 23, 1952 R. sPURR 2,611,525

MECHANISM FOR CHARGING CONTAINERS SePt- 23 1952 R. sPuRR MECHANISM FOR CHRGING CONTAINERS 8 Sheets-Sheet 4 Filed July 8. 1946 Il f "E5, d

Sept. 23, 195i n spum 2,611,525

MECHANISM FOR CHARGING CONTAINERS Filed July 8, 194s 8 Sheets-Sheet 5 R. SPURR MECHANISM FOR CHARGING CONTAINERS Sept. 23, 1952 8 Sheets-Sheet 6 Filed July 8, 1946 Sept. 23, 1952 R QPURR 2,611,525

MECHANISM FOR CHARGING CONTAINERS Sept. 23, 1952 R. SPURR 2,611,525

MECHANISM FOR HARGING CONTAINERS Filed July 8, 1946 8 Sheets-Sheet 8 Patented Sept. 23, 1 952- MECHANISM Fon CHARGING CONTAINERS Robert Spurr, Syracuse, N. 'Y., assigner to Ex-Cell-O Corporation, Detroit, Mich., a corporation of Michigan Application July s, 1946, serial No. 682,013

Inratentnc 2,353,519, granted July 11, 1944, thereisidisclosed and claimed a mechanism for chargingv containerarsuch mechanism being of the fully automatic type and so designed and constructedas to -be capable of charging a precisely measured volume of liquid into eachcontainerrof a series of empty containers successively presentedtovit by conveying mechanism.

The charging mechanism of the patented machine includes a liquid storage tank mounted upon arota'table turret and a number of liquid measuringY and dispensing devices adapted to function Avviiile the turret rotates in a continuous manner, fas'sciated means successively placing emptypontainers on the turret at one point and a second rileansA removing filled or charged containersfronijthehturret at a second or discharge station, ther'v mechanism as a whole, including both the` rotary turret and tank and the container loadingj'and unloading mechanism, being particularly v vvelllsuited for use in association with other essential mechanisms of -a completely automatic machine for the fabrication, coating, charging,'closing and sealing of paper containers. Such machines have been designed particularly for'use' inidairies and are now widely used for the automatic packaging of milk for distribution to consumers.. Without material modification, however ,'other liquids maybepackaged by .means oftheimprovedchargingmechaniSm.

The 'pr'esentjinvention is intended to' accomplislr the major functions ofjrthe charging mechanism previously patented but embodies. a number offeatures Vof` improvement'which render it Vmore satisfactory to theuser'inlcertain' respects7 Vthe mechanismas anY entirety having beensimplified to substantial extent byfaueduction inthe numberof moving parts and various elements of the? mechanism having been so designed and arranged with respectto other mechanisms of the apparatusA Aas a whole-,as to be more readily reached for the purpose or sterilization, adjust- Y mer`1t'orf-disassemblyV The mechanism which eiects the accurate measuring ofthe liquid to be charg has been redesigned, simplified and lmpr'ved`. -`0ther-features of novelty, together withthosel mentioned, render the ymachineless.

likely to need repairs long-*periods. ofguse. Y .I'n'the accompanying drawings a preferred or adjustments' even after embodiment of the mechanism isillustrated and f appreciated that the embodir l'ient ci the inven- 'l tierithus illustrated i s toisuitl'varying condi-tions; as'whcn liquids other 'i in'Figures 14 and 15 than milk are tol'be accurately measured and discharged into containers, and when containers having sizes and shapes diierent from that'illus ciated mechanisms for placing empty containers w upon the turret at one stationand removing lled containers at another station;

Figures 4a, 4b and 4c disclose details of construction of portions of the mechanism for removing charged containers from the turret. the same operating parts being shown, in the several views, in the positions which they successively occupy during the operation of iiexing or squaring a container;

Figure is a vertical section through the rotatev ing turret;

Figures 6 and 7 each disclose a portion of the charging "mechanism,v the moving partsof such mechanism being illustrate din diiierent positions in thetwo views;

Figure 8 is a section online 8-7`8 of Figure 6;" Figure 9 shows in side elevation portion of the charging mechanism, this portion constituting the lower end of the discharge conduit 'throu which liquid passes to a container;

Figure `10 is a section on line IU-I U'of. Figure 6;

y Figure 1.1 is a section ron line l|` fli of Fig'- A Figure 12 is a perspective View of portion of one element of the chargingmechanismi Figure 13 is a perspective view of a part vto be y mounted upon the elemen ure 12;

Figure`14 i uid flowsto a container to be dischargedfthis means including an element which also serves as a portion of the liquid metering device; Figurejl is a similar section, showing Ycertain of the operating partsof this Vrneans'in positions different from the positions which they are shown to occupy in Figure 14, i. e;, in the'pos'itions which v they occupy when liquid is actually flowinginto theropen upper end of a container;

Figure 16 is an .end vievvofv a valve member? ent oi the mechanism sll'o'vvnv which forms an elem illustrated vbyV t illustrated. in Fig,-

sa longitudinal axial section, on-van enlarged scalejthrough the means by"`w'hic'h liq-.

set. forth. Each vessel. comprises an enlarged central.. portion. a..V a hollow tubular portion 30h. extending .upwardly vtherefrom and terminating in .a liquid discharge porthavinga baiile 3l topreVent discharged liquid from striking the top..of.the tank, each vessel 30 also havingatits Y lower end a tubular extension 30d whichpasses downwardly through-an aperture in the generallyrhorizontal bottom .wall 22av of the tank 22 nut .132. is tightenedv the margin ofthe. bottonil plate .22a -.of.- thetank which immediately encircles the tubular extension :30d is. .tightly clamped. By the speciedmeans, the associatedv vessel 331sv rigidly secured in..position, the 'scfcuring .i means being. of,V such character that .the possibility of leakage iseliminated while, at.the same.. time, it easily possible to. readily disassemble the several parts for the purposeeof sterilization. The downwardly extending tubular portion 30d of each iiuid measuring device.

is zapertured just above flange 30e as. at 30j, and aperturel'lfv comprises the entry.port..through whichpliquid from ythe tank may. flow. into `the measuring vessel when the port isuncovered..

The-inilow ofv liquid from the tank into the vessel 30, is controlled by a sleeve slidably. housed within tubular extension 30d. When sleeve 35 occupies the position in which it is shown iin Figures 7, 14 and 15, the inflow. of liquid from tank 22,1nay not occur.V When port 30f is uncovered by a lowering of sleeve 35 to the position in which it is shown in Figure 6, liquid may flow freely through the port 30f as indicated by the arrow in Figure 6, andwillrise in.v

themeasuring v essel to the level of the liquid in the tank, that is, until the upper level of the.

liquid within the measuring Vessel iS somewhere along the tubular.v upward extension 30h. ofvthat Vessel, betweenthe minimum and maximumtank liquid levels indicated by Jthe lines 21 and 28..

..S1id ably mounteduponthe lower end of sleeve 3 5;is a tubular member 36, sleeve. 3 5 beingprovided'withavertically extending slot 35a and member, 36 with aninwardly projecting element 36a; extending into the slot so that member 36 maynot rotate upon sleeve 35 although loeing at all timesfree to move axially thereon to a limited extent The lower end of member 36 is Vprovided withY anv external annular flange 35h which is provided `with diametrically opposed,v oppositely projecting extensions 36C, which can v be seen clearly in Figure 9. Member ,36 is interiorally restricted toward its lower end so as to provide an upwardlyiacing conical surface 36d and a downwardly facing conical surface which terminates in a ccnicalseat 36e. C onical seat 36e normally rests upon the upwardly facing conical' against the iniiow of liquid. Normally, valve3 9 A clamping ring 33 directly ber. restsliipon valve.. 31 as also shoWn-inzthis! fieure'...j.1 I' A Withthese no liquid canescape from the measuring.I Vessel, to the container. C shown.; 'ju st. .below.. Shouldi l however, the container C,b e elevated 'from'.y theV postioningwhich it is shown in Figure 14 ,toggthe position in iwhich it isshown. in. Figure., y1.5, the` upper edges, Ca of the container, one of...which. is shown in Figure 1.4, will Vengage the undersurfaces of v'the flanges 3 6cpreviously referredito.. the tubular member 3B. will be. lifted, as, ioreine.l stance,v from the. position in which it. is shown in'FieurelAl to theposition in which it is shownV in Figure15the seating surface 3 6e will disen ;l gage the valve f 31, thus opening .the lowernend ofmember 33, .the stem ,38..andvalves;3.9 ;willffrlife.;r lifted, thus uncovering the inlet p ort atthe upper end ofsleeve 3.5,. and the liquid containedin theI measuring cylinder 30 w il1; be `free to flow down.;. wardly throughsleeve 35, and will" beg discharged into the ycontainer. C, the fioyv continuing until. the measuring cylinder hasv` ,beeng completely.. emptied. A dripgguard integral with memher; is indicate d at 3612 this guard serving, tn catch and divert any falling liquid .and to; discharge` that liquider/ era pouring lip. 33h.. laterally. of .the container v beneath, thus preventing.rv accidental contamination.. f. As will be obs erved in Figures liand 15, valve. stem ;3 8 is provided with vlateralprojections ad-f: jacent its upper end .whichmaintain thee axis.. of thevalve substantially coincident with the axis.. ofsleeve 35 when the valve is raised voff ofits;Y seat, as indicated in FigureY 15., these lateral projectionst being indicated at 38a and extending radially outwardly fromthe valvestem. Toward its lower end stem 38. is provdedwith a radially. extending web or projection 38h, upon one'side thereof,y and a smaller projection 38o extending radially from the opposite side. `The radial web 38h is providedtoward itslower .end with an inclined edge 38d which is only slightly spaced above the conical surface 33d of member 36 when member 36 is resting upon valve 31.". The upper. corner 3 3f ofweb. 38bjis inclined or rounded as shown and is normally spaced only a lslight dief l tance-from the conical or inclinedsurface..35c.

formed upon thelower end ofslecve 35... When. member 35 is elevated fromy the position in which. it is shown in Figure 14120 the position shown in Figure 15, theconical surface 3Bdstrikes theinr-f Vclined face 38d of web 38b,1.and further upward movementr of .member 36 causes surface, 36d .to ride over inclined surface 38d. as a cam surface laterally deflecting the web 38h and thestem 3.8.3. this movement continuing untilgthe..valve-..31..is.. eccentrically positioned with respect to its. seat, as shown in Figure 15. Asa result, vthe aperture intermediate the mutually facing conical surfacesv of valve 31 and member- 36 is crescent shaped. in horizontal section, and a liquid stream whichis... crescent shaped in cross section and; of.varying thickness will be discharged downwardly. andoutwardly against the w alls of the container below..x It is highlyadvantageous to discharge thelquid' in this Vmanner in any Vcase where the liquid .befing dischargedhas a tendency to foam, as doesi milk, the foaming being to alarge extentprevented when a discharge deviceof the character. I

described is 'utilized In order that the stern 38and associated Valves` maybe readily removed, the lower valve 31 is de ahably secured@ the, lower ena or stem ama indicated in Figures 1 5 and, 16 of the drgawiiigei.;

vlve'lrfunetions'asfa dripfvaive;tightlyrclosing the lower end of the discharge conduit leading'r fromthe' 'measuring fve'ssel as soonV asf a container C .is loweredaiter having been charged. During the Ltime, therefore, that 'no container is in contact withmember 36 there may beno leakage, thisr being. a consideration' of importance in the' case of ila machine forv thepackaging `of lliquid food products.

-The sle'eve Elli` i'not :ronly duct-.throughwhichlliquid` may pass to a' containertobe charged; and avalve' controlling the inflowof .liquid into' vessel 4Sllthrough port 30j butflilrevvise. constitutes a portion of the metering mechanism" whereby a liquidvcharge, destined to beintroducediiintoalcontainer, may be measinied withlexactitude. Thus; when valve 39'is in closed position-as indicatedY in. Figure 14, sleeve-35 and this valveztaken together constitute a plunger whioh,ifinoved.upwardly past'the port 36j', will reduce'. the Icubic content vof the. liquidV chamber which includesithe relatively large vessel Sila togetherwith that portion ofthe interiorof tubular extension 35h whichliesabovethe upper end of thesleeve 35. andthe valve 39 and the interior of thetubularextension 30d. .The upward movement of the "unit Whichcomprises sleeve 35 and valveiS is soregulated in the operatio'nof the device that, when it terminates, the cubic contentof the enclosed Aliquid receiving space' above itwillbe :exactly that desired. .The upward movement isi soregulated that', vin anyievent, some liquid is' discharged .from theupperend ofthe tubular extension 30D N'so that itV may 'be assured that the `liquid .has risenitoV v.the mouth'V of fthe dis-V chargeport of this extension'andthat'theY liquid receiving spaceof the device has b'een'completely filled. `Tl'ie"`verticaltravel of sleeve e5 may be preciselyregulated and the means for eiiecting the vertical movements of'this sleeveand its asso ciated parts so that itwill first function as a valve and thereafter .as a metering'plungerwill now be described.

From an inspection of Figure 6 it will be perceived that, approximatelymidway between the ends of the sleeve, are two laterally extending' parallel. flanges indicated. at 35i. .Positioned-intermediate flanges'35f is one end of a Vbell crank lever which .is generally designated at L. The

armi of lever L extends ina generally horizon- ,d

tal direction and the free -outer end thereof,` which terminates intermediate flanges A35i of'I the sleeve is providedwith' enlargedicorner portions 42a with rounded upper and lower surfaces adapted to engage respectively the mutually facing" built-up construction and is v'telescopic'so astof f' bewariable in length. It includes as -an outer member a sleeveA 44"havingla spherical'enlargement 44o,A and' 'an inner member in lthe nature of a spindle 55 which extends upwardly into the camtrack 12b previously described. VARotatably mounted upon the upper end of"spindle-55"isv a roller 56 'with a spherical surface, this roller being'a cam follower. witha longitudinally 'extending elori;;f,ated'slot 550'.:passingentirelyY therethroughgthis slot hav 4`constitutes a tubular The Vspindle' 55 is provided ingiairenl'argementib at its zlowernd, as'shown inF-igure '6. v:Spindle55"'is.likewisezzprovidedwith an vaxialrbore uat itsllower. end which tis. interioral- V vided #with Ian annular .t outwardly projecting ange58afwhich. may be clamped betweenxthe annular -loweriend surface of'. member 44 y'and the 'inner 'annular' iiange 58h L of .la loup-shaped locki-,nut 6o. flock-:nut L60, 'when tightened. clamps'ilange 58a cica-p58, holds threadedmember i151 fagainst ifrotation, :and .thus rmaintains spindle 55 inzfixedf vrelationship to member 1 44.

The: spindle, '.:howevenmay be'vertically .adjusted by. releasing: the lockfnuteeil and.. rotating. cap :5B

andl threaded :member iluso Vthat the :distance between the cam follower: Viano'l'lthe :taxis upon.-

which comprises a pivot upon which the. leveriLl is mounted f or' rockin'gzmovement. The mid-'portionof 'member :62 is of reduced diameterfaas olearlyshownin Figure'8, while the end lportions are `larger and. comprise trunnions `which iengage incylindrical aperturesformed inthe annularsupporting member63 secured-to `the undersurface ofthe horizontallyextending.portion '|9a of the turret partV l'fprevously referred to. thus formed and supported, the-entire lever'iL may be .easily removed for the purpose'ofre-` pair or sterilization, the spindle 55 being rst elevated until Athe enlarged cylindricall recessat the bottom ofthe slot is coaxial with member '62, whereupon the member may be moved longitudinally until theylever is. disengaged andthe. lever lowered and removed.V

The outer surface of thel intermediate portion 44a of-.the outer part 44 of the vertical leg of the lever! L is, as previously stated, spherical. Enoircling this portion and engaging the upper surface thereof is a. ring '64V having a spherical downwardly facing surface normally maintained in .close engagementA with the surface 'of 'the spherical'enlargement' 44a by 'means of ahelical spring 65. Ring 64 constitutes a movable spring" abutment and theY arrangement is such that the sleeve 44.1.15Y at all times .pressed downwardly' upon its z supporting. pin 62,'. play bein-g thus preventedeve'n though wear may cause looseness. 'The cam track i227 isso'formed that, as the lturret I3 revolves about its vertical axis, the several levers L will berocked Vor oscillated'about their'horizontal Vaxes to produce the desired rising and falling'movemen-ts of the corresponding sleeves 35 associated. with the measuring-vessels. The vfilling, metering'and discharging operations of each liquid measuring means thus occur in desiredse- Jquence. From an inspection of Figure 23 the sea'stationary block l0 which-is preferablygeneral- 'surface being illustrated y block 10.

..9 ly cylindrical, with its axisvertically disposed. The horizontal ange portion I8`of the rotatable turret I3 is provided with a circular series of equidistantly spaced apertures through which the several blocks 'I0 project and, extending downwardly from the under surface of the ange I8, are a series of cylindrical flanges I 8c, the inner wall surface lof each such flange being closely engaged by the outer surface of the lower portion of the associated block 'I0 so that the blocks are securely 1 vheld against horizontal displacement or rocking movement with respect to flange I8.

Each block 'I0 is provided with a peripheral flange 10a which is received within an annular groove formed in the upper surface of the turret flange I8 and encircling the block receiving aperture. A bolt 'II disposed within a vertically extending bolt receivingrecess in the block, theV lower endV ofthe bolt having threaded engagement with an aperture formed in the disc-like member 12, the periphery of which underlies the annular. downwardly facing end surface of `ilange I8a. When thegbolt 1I is tightened block 'I0 will be secured against vertical displacement. There may be several such securing bolts if desired.

Directly above each block 10 is a disc-like elementv'IB,v horizontally disposed and a portion of the upper surface of which comprises a seating surface for a container to be lled, a container the base of which'is resting uponsuch a seating in chain lines `in Figure 17.A To the member 'I3 is aixed cylindrivcal skirt 'I4 which encircles the block 10, the arrangement being such that, when the container Ysupporting platform I3 is elevated from the position in which it is shown in Figures 17 and 18 to the position in which it is shown in Figure (to the right of that figure) no gap between member 'I3 and block 'IIJ may be observed. Means for raising and lowering the container supporting disc I3 includes a vertically extending rod 15, the enlarged upper end of which is secured by screw bolts to the under-surface of member 'I3 and vwhich is slidably mounted in bearings b disposed within acylindrical vertically extending aperture 10c which passes entirely through the VUpon the lower end of rod 'I5 'is mounted a pin which carries a roller or cam follower 16, this follower being positioned AWithin a cam track 'I1 cut in the outer surface of the an- I nular cam member 18 which is-mounted upon the horizontally extending webv by Illa of the supporting'frame I0.

As the turret revolves, the several rods 75 will be successively elevated as the successivecam'followers 'I6 reach an upwardly inclined yportion of vthe cam track 'I'I, each container platform 'I3 being lifted, for instance, from the position'in which; it is illustrated, at the left of Figure 5, to

the position in which it is shown at the right of the same figure. At a later point in the travel of each cam follower lit will reach a descending portion ofthe cam track and the associated rod and container supporting member 'I3 will des'cend.r By this means a container placed upon a container receiving member 'I3 at one station `will bel given a rising gand falling'movement as theturret rotates. The direction of turret rotation ,is indicated by the arrowA R in Figure23 and it will'be observed from an inspection of thisv j and final Ymovements of other operatingggperts of the mechanism.l As heretofore explained, each container, as it is moved upwardly,-,engag es the vertically movable member 36gof the dispensing mechanism immediatelypa'bove it-gand lifts; that member, thus opening the valve and releasing the liquid to be dispensed. Legends on,t l 1 e dia gram, Figure 23, indicates the positions .ofth e container support when the lllingoperation commences, likewise the points in the rotary travelj of each lling mechanism at which the-.sleeve -35 closes and opens theport30f; When' the.c o n tainer descends the member 36is likewiselowered and valves 31 and 39 close. 'Ihe'movernent-zof the entire assembly, comprising sleeve;35.,- m em ber 3B and the valve means is, as explained, brought about by the associated arm L.

Means associated with eachcontainer support grips and .steadies the container while itgis `being illled. This means is4` likewise' shown in-Figures 5, 17, 18, 19 and 20. Stationary parallel container -engagingarms are. indicated atp88, lgea'oh of;y these arms extending horizontally from a stationary spindleelike vertically Vextending member 8I,j th;e lower end of which rests uponthe upper end of a short cylindrical pedestal 13a' integral with the container supporting element `'I3. M ellbelA 8 I-- is securely held in the'position in` which itis-illustreated by means ofY ar screw bolt 8,2. It ywillbe observed that thev arms'80 are positionedtoengage one vertical sidewall ofV a' container placed upon the adjacent container supportj The container engaging arms of a second pair o f lsuch arms are indicated Lat84,'one endoffeah vof 'these arms being integral with or affixed to a vertical spindle-like member 85 which-is'similar to the member 8|. Member 85is. mounted t o rotate about its-vertical axis and-means is' vided for effecting its rotation-to swing th associated arms 84 into-A and outfof containe gaging position at desired pointsin the trave v of the turret. r 1 si As disclosed in Figures 1 and 4,acontainer-at position-C5 is vnot engaged by either-.paincf ccntainer embracing arms and arms 84 .of 1 tl le a l s sociated gripping' mechanism are swungvvaway from arms 8l]4 to permitthe ready placement of the container on the container support. Ascontainer which has been movedintof-position@ is shown to be gripped vby bothcontaineremblriing arms, arms 84 having been swung towards arms B0 and the containermoved against arms and closely. engaged by.both pairs of .arms. From position-C6 to position C I each successive container is thus securely Vmaintained .inVj position beneath al liquid dispensing means. A s .each container moves fromV position C'I to position C8 the container embracingarms 84- are swung away and the container-is thus released 'so that {it may be removed from the charging turret... .l

The means for rotating a memberatft'he proper times, and thus swingingtheassociatved arms 84 toward and away froma containerlincludes a vertically disposed spindlel88, the upper end of which is provided withan .axially'-extending threaded recess which receives the' l threaded lower end of a screwbolt-.89, the spindle liliibeing thusV` suspended in the position 4in which "t is shown in Figure-1.8, an annular flange` 88'a 1nte gral with the spindle closely engaging the undersurface V of member 1 3. The lowerlend ofY spindle 88 is ,disposedwithin a sleeve .90.and is keyed thereto. A short cylindrical part. .SI-..` e'cu1je.d with- 151 uponsitseouter end-faecam lfollowerz'llzlwhich'xis lcatedinafcamr trackfSS'vlformed' ingthe. upper surfceof the annular ycam member "|8=:previous l'yfrefrredf to.` As thee turreti rotates". theecam follower willbe moved inwardly and outwardly by; reason`v of="variations in' the position; of I the cametracky for instance; from` thepositionin which-'it isl shown; in FigureI 19 to 'the' position'in Wliich'it lis shown in Figures 20,V` endg,4 as. a result of f'thlsfradi'al :movementfo "thefcamlfollower- 912, thet member `85 willbefoscillated1 about its'y vertical axis* anditlie-arms` 84. will! be` swung: from the positions in 1 which `they-are shownA in.. Figure 19 totlie-.positions in which Vthey'areshovvn in Figure20, and "thereafter backto the iirst position, in order to perform` their-essential 'containerengagingv and-lioldingrfunctions..

Nvel means is employedl ,for successively :piacingaempty-containers.'.upon Vthe.-.container sup:- porti-ng=` members 'which are successively J moved into-"container receivingiposition, .this imeans` Abelng'illustrated in Figures l; 2:.and ;3; inclusive:l It

'includes'falconveyor which";isfgenerally indicated atfW and V,theprecise detailsziof Vconstructionv oi which 'may :be widely'. variediiand.: hence :need ynot be-precisely'rdescriloed.` It is' the: function-.oi nthe conveyor to move containers placed:y thereon .in therdirection oif'the: arrowv G; from a conveyor charging-"position, which mayf. be somec distance away; tol-the ultimate.:containeri'position, .at wlii-ehl positiorrthe container sengaged by furtlier means later* to1be` described." Preferably, theconveyor--W isl'oi .fthesendl'ess .-chai1r.type;.,the -clain=liaving= mountedv thereon' ai series? oit'at container3 supporting-f. platesof.l relatively small size; such' as indicated at- |00.i .Alcontainerrupon moving-intoA positionY C31has its, forward motion halted byrreason lofthe engagement'.ofrits:` leading faeeor side withl two-.fl'at surfaces f; ofi the vertically-*spaced Lhorizontally :disposed'smernbers and |02, members |0| and |02 comprising annular rings: disposed"l in:` coaxial. relationship and each haviga seriespfradiatingarniss these arms l beingdndicatedf at I Bill a and; |02@ respectively; andeach arm. |0111.H directly"overlying` a simlarrarnr. l 02a;- Thefverticallyv -disposed: outwardly facingffareasf of-rings1 0| L= andi|021xwhich comprise-v stop surfaces;A arranged in; pairs; for tlieL otr-coming" containers respectively: aref indicated aty ln'lbandiwZbin Figure 2, and-.are tangentiallyl disposed`V with-1 respect i'. to the... axis about' which the lmembers f 01 and |02'. rotate, Tliemembersf |01 andv |02 are mountedupon a domelike support |04'. these Ymembers encircling member M14-and' bei-ngf rigidly: secured thereto. The-arms l| 0| a and I 02a are '-not disposed' radially of f the axis' of rotation of support l 04--as1 may; oe seen' from an inspection-of Figurel, but each is so positioned that"it' wil1, when4 itreaches container engaging-position; lie closely parallel to.

a f latsuriace of-v a=containerreaching position C3.` Successive pairs-"oriarms are A"so relatively disposedv angularly that acontainer may be readily introduced into the space between them.

Tli'e'drumt lfismarried upon a vertically ex tendingshaft '|05 which,v in'thenormal operation ofthemacliine', rotatesat a preedetermined con- Astanti"angular"velocity* so that suceessivecontainers` areimoved fromV posi-tionv- Csvthrough position CB' intoA position C5i The Aconveyorv W1Y the-container: engaging;A and pushingarmsr: Each container, assitl leaves the conveyonwill move on to theacurvedr horizontalA trackway or: containerl supporting: rail |06 by means -ofwhich thezzcontainer is* slideably vsupported until itz: is pushed oniito' a: platform', member AT3, .at 1 position C5.v

.'Ilo.v insure: that: containers approaching' the container; engaging; arms I 0|a,. andA |02a: are properly spaced upon the ,conveyor W, andfhence will move in perfect timed relationshiprtathe meansnjust described for-circularly vmoving Ithe containers vonto the charging machine; a com tainer. positioning; device. is employed.. Thissdeviceincludes a spacing linger |08'mounted upon a horizontally :extending shaft ltl'sultablyisupportedffor rocking movement in the frameiof the. machine. The finger |03= is. Leshaped. as shown in'Figure-Zothe drawings and 'is adapted to. be-movedzirom theposition .in .whichit is shown fullV lines in this View to the position in lwhich it isshown in'dottednlines-inthesame ii-gure. When moved .to its. full4 line position-.the free end of the linger lilprojectsinto the .path of movement'xoficontainers upon conveyorW andnwill halt the-movexnent Sor' i any container, such as'the containerC, which strikes. against it.' Whenit is removediirom full :line position to dotted line position suchzcontainer is released and may continue its movement'with the'conveyor in thedirection of the arrow-G. It will be understood that thecontainers passing:the finger |08.'y are moving between parallelr side gui-desY ii: and andmaysnotrotateawhen Lengaged and temporarily halted by linger |00.

The..nger isvr operated at" intervals which' are precisely-timed with relationto the movement ofshait |05, theshaft llupon whichthefinger |08;.is11mountedzhavingaixed to one end a radially extendingarm ilwhich earriessa'cam roller Vor vfollower H3, which is in constantengagement Vwith the under surfacepf thesam I4 secured to zthe horizontal under-surface of the bottom plate of memberli. As shaft |05:re

r v-Volves, carrying: with it the arms |0|a and |02a,

the successive containerswill be properly positioned'on the conveyor for'engagement by the arms "and, despite any irregularities ofV movement of the conveyorW, the oncoming containerswill be successively fed intoposition-CSfat thezdesired intervals;

Asheretofore explained, each container, after having been charged with liquid, ultimately reaches the position C8.. shown in Figurel l, and

v isthere engaged by. means which removes the containerirom the charging machine without spilling anyof its contents. This mechanism comprises essentially an endless conveyor which includes upperandlower conveyor'chains |20 and. two super-posed series vof container receiving-brackets I2|, mounted upon the-chains |20, respectively, each bracket having'a long container engaging arm |2|a and a' shorter container engaging arm |2|b', these arms extending outwardly fromV the chainv |20 and being substantially parallel, likewise two container engagingfabutments |2|c intermediatearms |2|a and' |211). EachA container reachir'ig position C8 is released by the gripping arms which havebeen inengagement with its opposite sidewalls up untilthat point andrarms |2|c ofthe-conveyor move'into position and engage-one flat Aiaceof that 'container as shownV in Figure 4,1 theecontainer engaging bracket'lo'eingfatv that time at the approximate midpoint of' an* aref-off travel v:invii-g',vallei.itl ,eleves 1120 passes around Ya chain supporting sprocket 13 as each conveyor Y, chain Ikeyed to member "|28, as''illus'tated'inv Figure -21.

Continued? movement of Vthe chainsV f'brack- 'container will be moved,` vin the direction indi-v cated bythe arrow V, tol further mechanisms for closing and sealing the same.

'During the, time that thecontainer is Amoved from position C8 to` C|2 its upper end is squared by a meansnow to be described. It will be understood that containers of the type of that illustrated in Figure 24 are initially form-ed as collapsed or vilat tubular members. After having Vbeen squared out each tends to resume its original shape and to revert from a truly square member to a diamond shaped member, this follow-ing firointhe natural tendency of distorted ilbers to resume the positions which Ythey originally occupied. By reason of the factthat the vbottom of the container has been. clos-ed its lower end is'staunchly braced. and may not become distorted. The upper end, however, which is as yet unclosed,v` will have a, rather strong tendency to become. diamond shaped in horizontal section. .Means is therefore provided for 4distortingthe. container top in such vmanner as to counteract this tendency, vthis', means vincluding a pusherrelement adapted-to make-contact with Vone corner of the container top' and to move this corner toward the stationary rail |23. These container distorting iingers, wh-ich lare four in number, are indicated at |25. Each is u mounted for oscillation about a iixed verticalaxis, its inner end being supported on a pin |26 carried in a rotatable member |21. is secured to the upper end of a cylindrical .block |28 which encircles-a sleeve |29:within which is disposed a stationary shaft |31).4 Upon the topl ofshaf-t |30 is mounted-.a xed cam |3| havingja-downwardly facing cam track I3|a. llVithiriQcamv ,track |3111. are four cam rollers Member |21 |32, .each-"of: which is flxedupon the end of an n arm l33.'.,lii ach arm` |33 is vmounted upon `a pin |26 and isthereforexedgwith -relationltothe associated finger |25. As member |21 rotates each ilnger |25 rocks about the axis of the as- `sociatedpin |26, occupying wthe several'successive positions indicated clearly in Figures 4,411,417 land 4c.v Asinger |25 moves from the position in 'which it 'is shown in Figure` 41a, to the position inwhich itis shown in Figure 4b, the Zupper end of -va. container occupying position C"|0 is distorted, vthe corner engaged by finger |25 being pressed toward the diametrically opposed oornerf Asuthe container moves further, and into position- CIZ, the pressurenger |25 recedes andthe top of the container will resume approximately a square horizontal section so that itiv may be received and satisfactorily manipulated by the container top folding mechanism which is provided to effect the final closing ofthe charged container. The rails |23 function l'to limit the outward movement of the chains |20 upon which brackets 12| are mounted are supported upon rails |40.` Each rail includes .a laterally facing recess which serves as a runway for chain supporting rollers I 4I mounted upon stub axles carried by the chain, and also is so formed as to provide a downwardly facing slot |42 which constitutes a protective runway for the chain proper, the chain having rollers |43 spaced along its length to reduce friction.

Having described the invention, what is claimed as new and desired to be secured by Letters Patent, is: y

l. Liquid dispensing means comprising a chamber having an upperfou'tlet port anda tubular passage leading downwardly/therefrom, said passage having a liquid inlet port formed in the wall thereof, means within said passage for controlling the flow of liquid therethrough and also "for controlling the inflow of liquid through said'inlet port, said means including a sleeve and a valve normally closing 'the sleeve, and mechanism for separately operating the sleeve and valve.

2. Liquid dispensing means comprisingr a chamber having an upper outlet port and agrtublar passage leading downwardly' therefrom,*said passage having a liquid inlet port formed inl the "wall thereof, means within said passage for controlling the flow of liquid therethrough and also for controlling the iniiow of liquid through said inlet port, said means including a sleeve and-,a valve normally closing the sleeve, means for reciprocating the sleeve within said tubular passage and separate means for operating said valve. Y i

3. Liquid dispensing meansv comprising fa chamber having an upper outlet port and aV tubular passage leadingdownwardly therefrom, said passage having a liquid vinlet port formed in the wall thereof, means Y,within said passage` forA controlling `tlie-ilow of liquidthereth'rough and also Yfor controlling the inflow of .liquid through said inlet port, said means' including a sleeve and a valve normally closingthersleeve, means for reciprocating the` sleeve, saidl means being adjustable so t at the extent of th'egupward movement ofy thejsl .ve

may Vbe 'precisely'lregulated, rand separate j means for operating said valve. 4. Liquid Adispensing means including avertically disposed tubular liquid conduit, a second tubular conduit slideably mounted on thel lower end of said flrstconduit, the lower end of-said,

second conduit having a valve seat formed thereon, a valve stem carried by the rst tube, a valve securedto the lower end` of said valve stemthe Valve seat of said second conduit normallyen'ga'g- Lthe passage deiined by-said membersandjsupporting the valve,Y said valvejsterriV and lowerrnost tubular member having portions adapted .to niutually and automatically engage when said member is lifted to thrust the valve and stem laterally.

6. The combination set forth in claim 5 in -whichasecondyalvefissecuredto:Saidfstemrand normallygelosesfthe eupperniost.- tubular: member.

7e .A liquiddscharge fdevice ,comprising-averticall-y; disposed tube, having upper and lower telescoping; tubular l members,` a valve.A normally closing the -upper end yofthe upper member, `a

second valve-normally closing the lower-end of inthe -wallfthereof through .which liquid may entergto lill the chamber, a sleeve slidably fitting withinthetube to-open and close the-inlet port, avalve mounted upon said sleeve for controlling the flow oiliquid through said sleeve, and means for slidingsaid-sleeve axially of said tube, said means including a bell cranklever having a two part:extensiblearmY and a support forsaid arm having a pivotpin, both parts of said Aextensible arm being transversely apertured forthe reception .vofsaid-pivot pin, the aperture in one part beingan elongated slot to permit movement of said part relatively tothe pin. 9; The combination set forth in claim 8 i which resilient means is positioned to constantly actupcnone of said parts of the extensible arm Yto cause said partato maintain -full bearing at all times against one side of said pin.

10. Liquid measuring mechanism comprising a chamberhaving upper and lower outlets and an inlet port intermediate said outlets, the lower outletlcomprising an unobstructed tubular member, and means within said tubular member for controlling the outflow of liquid therefrom, said means including asleeve the outer surface of which engages` the, wall Aof said tubular outlet witha-close sliding t, a dowcontrolled valve carriedby the sleeve and normally closing the same, at the upperend thereof, and means for movingsaidsleeveupwardly through said tubular member a predetermined but variabledistance.

' 1'1. Liquid measuring, mechanism comprising a chamber having an upper outlet, a tube extend- ,ing downwardly therefrom through which liquid may, escape, said tube having an inlet port formed in the wall .thereof through which liquid may enter to fill thechamb'en means within the tubeandmovable axially thereof ,for opening and closing the same andopeningand closing` said inlet port,V and separate actuating -A devices for causing said means to open and close said tube and portrespectively.

12. Liquidmeasuring mechanism comprising` a chamber having an upper outlet, a tube extending downwardly therefrom through which liquid may escape, said tube havingl an inlet port formed ini the wall thereof through which liquid may renter to ll the chamber, a. sleeve slidably tting within the tube and movable to close and open said inlet port, a valve bodily movable with, and movable relativelyto, said sleeve, for controlling the iiowof liquid through said sleeve, means for positively reciprocating saidsleeve and separate means for actuating-said valve.

,11.3. Liquiemeasuringgmeehanism com-prisma@ chamber having-an upper outlet-.aftubeeextendineslwewerelr.;ihereirornihwueh.uhhh-lieti@ may, .esoape,said tube having., an inlet,` 'est `:formedin the wall thereeiD .through ,which-. -hcuiid may. enter tof fill Ithe chaniloer,l aisleevewslidaply nttinggwithntheftube; and `having a seatings face fora valve,formedonneend, a yalvefnor.- ina-ily seated on saidsurfaca the Isleeve being adapted to fclose.. and open 1 said inlet 'port and the sleeveand valve` together cons titutinga plunger, effective to :reduce the` capacity'loithe chamber when advancedpastthefsaid inletport,

andseparatefmeans for actuating said Sleevefand valve respectively, ,the sleeve; being movable through `variable distances on,,itsworlririg` stroke. 14. 4Liquid:measuringmechanism comprsnea chamberhaving,upperand lower outlet portsj and an inlet port intermediatesaid, outlet ports, and means forcontrollingthe `influir/ of lquidthrough saidchamber through said lowen outlet port, said means including, twd relatively movable membersoneofwhich is carried by theother. meansicr positivelyactuating one oisaid mein'- bersA tn effect simultaneous vmovement both, end second means for.. effecting' rlabvfmovmentof said members. f

151A liquidj discharge device .comprising` 'co, axial telescoping tubular members, two valves, one forclosingthe outer end oi onemembeigand the second for closing, vtheV outer,v end offthe second member, and avalve stem rigidlyfconnectingwthe valves, the axis of said stern ybeing normally coincidentwith the axis of said members, said stern and one oisald memberslhal/.ng parts ladapted to mutually engage when` said member is moved to'openone'valve an'djtoV 'effect swinging movementv of the stem, ab'cuita` trans'- versel axisF and ArrlovementV of: said4 sec'ond'valve transversely ofy the'axis oiisai'ci members;

ROBERT sport' iileofthispatent y UNITED sfr-aras PATENTS- NurnberY y Name f` Dare- 1889,106 Cunningham; l May 26,1908 '1,147,346 Thompson July 20,' 1915 1,342,173 Joslin 'Jllne `l, 1'9'20 1,523,607 Prael Y Jan. 20, 1925 1,531,794 Larsen Mar. 31;-"19'25 1,554,805 Fullips 1 Sept. 22, .1925 1,965,045: McLaughlin et-al. July 3,1934 2,138,355 Ryan etal.' 'Nov29', 1938 2138,93? Petroe Decpflil 2,168,380 WintonY Aug.-8,f."l'939 2,200,189 Olin' 'l\/Iay"7;.1940 2,226,619/ Larsen Decz 31,1940 2,234,305V 'Huntley et al. Mar. 11, .-1941 2,330,596 Kotcher et al.' Sept. 28; S1943 2,343,582v Weaver MayiQ, `19H-.4 2,353,519' lSpurr Julyfll; 1944 FOREIGN, prrrnlvfrsv v Number f Country DateA `325,24@ Grreat,Britain;l Feb. 14, 1930 553,67*? France- July 5,1922 

